# Uniformly random with binary search

I would like to choose a random at uniform edge depending on its weight from a multigraph (weighted graph). I would like to make this like it is described in Kargers algo.

The algo has two parts:

This is a Random-Select method.

``````From edges e1...em with weights w1...wm construct cumulative weights
Wk=sum(wi,from=i=1,to=k).
Then choose an integer r uniformly at random from 0...Wm and use binary search to
identify the edge ei such that Wi-1 <= r < Wi.
``````

And then we can use this method to find a random edge.

``````Goal is to choose an edge (u,v) with probability proportional to W(u,v).
First choose endpoint u with probability proportional to D(u) and then once u is
fixed choose a second endpoint v with probability proportional to W(u,v).
``````

I have implemented the graph as an adjacent matrix. This looks like this.

``````       v1 v2 v3 v4
v1 0  1  0  2
v2 1  0  3  0
v3 0  3  0  0
v4 2  0  0  0
``````

In my code the matrix is an int[][] Matrix;

And I have an array with the cumulative sum of the row for each vertex.

But now I dont know how to implement this correctly in my code.

Thank you.

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did i get you right: you need the code for the sum of each row? –  Philipp Sander Apr 29 '13 at 15:32
possible duplicate of Mincut of graph by enum –  durron597 Apr 29 '13 at 15:37
This is not a duplicate because I need a solution with a binary search like it is described in the Karger algo. And there I was asking for a deterministic mincut algorithm. I dont need the sum of each row. I need a random edge depending on its weight. –  user1058712 Apr 29 '13 at 15:42

heres the method:

``````public static int sumOfRow(int[][] array, int rowIndex) {
int sum = 0;
for(int i : array[rowIndex]) {
sum += i;
}
return sum;
}
``````

if you don't understand it, tell me and i will add some comments.

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